Quantum-assisted trustworthiness for the Quantum Internet

• URL: http://arxiv.org/abs/2404.16463v1
• Date: Thu, 25 Apr 2024 09:47:30 GMT
• Title: Quantum-assisted trustworthiness for the Quantum Internet
• Authors: Agustin Zaballos, Adria Mallorqui, Joan Navarro,
• Abstract summary: Device redundancy is a mechanism to increase the overall system fault tolerance and, consequently, trustworthiness. Quantum-assisted mechanisms have been envisaged as an appealing alternative to improve the performance in this kind of communication networks. This paper explores this approach by using super-additivity and superposed quantum trajectories in quantum Internet.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Device redundancy is one of the most well-known mechanisms in distributed systems to increase the overall system fault tolerance and, consequently, trustworthiness. Existing algorithms in this regard aim to exchange a significant number of messages among nodes to identify and agree which communication links or nodes are faulty. This approach greatly degrades the performance of those wireless communication networks exposed to limited available bandwidth and/or energy consumption due to messages flooding. Lately, quantum-assisted mechanisms have been envisaged as an appealing alternative to improve the performance in this kind of communication networks and have been shown to obtain levels of performance close to the ones achieved in ideal conditions. The purpose of this paper is to further explore this approach by using super-additivity and superposed quantum trajectories in quantum Internet to obtain a higher system trustworthiness. More specifically, the wireless communication network that supports the permafrost telemetry service for the Antarctica together with five operational modes (three of them using classical techniques and two of them using quantum-assisted mechanisms) have been simulated. Obtained results show that the new quantum-assisted mechanisms can increase the system performance by up to a 28%.

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